Applied Chemical Engineering

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Applied Chemical Engineering

ISSN:  2578-2010 (Online) Journal Abbreviation: Appl. Chem. Eng.

Applied Chemical Engineering (ACE) is an international open-access academic journal dedicated to publishing highly professional research in all fields related to chemical engineering. All manuscripts are subjected to a rigorous double-blind peer review process, to ensure quality and originality. We are interested inthe original research discoveries. This journal also features a wide range of research in ancillary areas relevant to chemistry. ACE publishes original research articles, review articles, editorials, case reports, letters, brief commentaries, perspectives, methods, etc. The research topics of ACE include but are not limited to: 1. Analytical Chemistry 2. Chemical Engineering 3. Materials chemistry 4. Material synthesis 5. Catalysis 6. Process chemistry and technology 7. Quantum chemistry method 8. Environmental chemical engineering 9. Bio-energy, resources, pollution 10.Reaction kinetics 11. Nanotechnology and bioreactors 12. Surface, coating and film   Starting from Volume 7, Issue 2 of 2024, Applied Chemical Engineering (ACE) will be published by Arts and Science Press Pte. Ltd. Please turn to the journal website for new submissions.

Vol. 8 No. 2 (2025): Vol. 8 No. 2(Publishing)

Table of Contents

Open Access

Original Research Article

Abstract

ACE-5603

Application of central composite design and desirability function in the optimization of spectrophotometric method for quantification of fast green FCF using a green microextraction method

by Zianab Tariq, Alaa S. Alwan, Layth S. Jasim

2025,8(2);    55 Views

doi: https://doi.org/10.59429/ace.v8i2.5603

Abstract The aim of this article is to develop a "switchable hydrophilicity solvent liquid phase microextraction" (SHS-LPME) for the effectual extraction of fast green FCF. Three "switchable hydrophilicity solvents" (SHSs) were practiced for the extraction of fast green FCF. The attained extract phase afterward phase separation was evaluated by UV-VIS spectrophotometry. The extraction parameters such as, SHS volume, HNO3 volume and NaOH volume, were enhanced using central composite design and desirability function. Under optimized conditions, the linear range 0.50-5.00 µg/ mL with R2 = 0.9886, limit of detection 0.341 µg/ mL, limit of quantitation 1.026 µg/ mL. The method showed a relative standard deviation (RSD) of 1.16% for 7 replicate measurements. Preconcentration and Enrichment factors were determined to be 20 and 35 respectively, indicating the method’s efficiency in enhancing fast green detection. The proposed method was applied in real samples successfully.

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Open Access

Original Research Article

Abstract

ACE-5633

Chemical stability and structural changes in xNa2O-(45-x) B2O3-45P2O5-10MnO glasses influenced by Na2O

by OUMAIMA BARZALI, ABDELKADER BEN ALI, JAMAL MABROUKI, MOHAMED SAADI

2025,8(2);    36 Views

doi: https://doi.org/10.59429/ace.v8i2.5633

Abstract Borophosphate glasses with compositions xNa 2 O-(45-x) B 2 O 3 -45P 2 O 5 -10MnO, where x ranges from 5 to 25 mol%, have been prepared using the conventional melt quenching technique. Several methods including X-ray diffraction, Fourier transform infrared spectroscopy (FTIR), and differential scanning calorimetry (DSC) have been used to characterize the produced materials. The absence of crystalline structure in the prepared phosphate glasses was confirmed by X-ray diffraction (XRD) studies. The chemical resistance of these glasses increases with the Na 2 O content. Glasses containing more than 15 mol% Na 2 O have excellent chemical resistance. The relationship between structural changes and composition was investigated by measuring density and glass transition temperature Tg. The results obtained show that the glass transition temperature and chemical properties increase with increasing sodium oxide composition in all the glasses studied. These experimental results indicate that Na 2 O lowers the melting point and increases the strength of the glasses.

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Announcements

This journal will be jointly published by Enpress Publisher and Arts and Science Press (https://ojs.as-pub.com/index.php/index/index).

This journal will be jointly published by Enpress Publisher and Arts and Science Press (https://ojs.as-pub.com/index.php/index/index).

Posted: 2024-01-25

ACE is included in CAS databases!

Posted: 2023-12-11

Publication frequency becomes quarterly

Posted: 2023-09-12

More Announcements...